期刊
DRUG METABOLISM AND DISPOSITION
卷 49, 期 6, 页码 442-450出版社
AMER SOC PHARMACOLOGY EXPERIMENTAL THERAPEUTICS
DOI: 10.1124/dmd.121.000356
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Time-dependent inhibition of CYP3A is a key mechanism in drug-drug interactions, but measurements in human liver microsomes can often lead to overestimations. This study evaluated TDI of 50 drugs in HLMs and suspended human hepatocytes, providing appropriate boundary lines for the parameter rate constant for inhibition. Values of k(obs) in HHEPs were consistently lower than those in HLMs, offering practical guidance for early drug discovery research on CYP3A.
Time-dependent inhibition (TDI) of CYP3A is an important mechanism underlying numerous drug-drug interactions (DDIs), and assays to measure this are done to support early drug research efforts. However, measuring TDI of CYP3A in human liver microsomes (HLMs) frequently yields overestimations of clinical DDIs and thus can lead to the erroneous elimination of many viable drug candidates from further development. In this investigation, 50 drugs were evaluated for TDI in HLMs and suspended human hepatocytes (HHEPs) to define appropriate boundary lines for the TDI parameter rate constant for inhibition (k(obs)) at a concentration of 30 mu M. In HLMs, a k(obs) value of 0.002 minute(-1) was statistically dis- tinguishable from control; however, many drugs show k(obs) greater than this but do not cause DDI. A boundary line defined by the drug with the lowest k(obs)( )that causes a DDI (diltiazem) was established at 0.01 minute(-1). Even with this boundary, of the 33 drugs above this value, only 61% cause a DDI (true positive rate). A corresponding analysis was done using HHEPs; k(obs) of 0.0015 minute(-1) was statistically distinguishable from control, and the boundary was established at 0.006 minute(-1). Values of k(obs) in HHEPs were almost always lower than those in HLMs. These findings offer a practical guide to the use of TDI data for CYP3A in early drug-discovery research. SIGNIFICANCE STATEMENT Time-dependent inhibition of CYP3A is responsible for many drug interactions. In vitro assays are employed in early drug research to identify and remove CYP3A time-dependent inhibitors from further consideration. This analysis demonstrates suitable boundaries for inactivation rates to better delineate drug candidates for their potential to cause clinically significant drug interactions.
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